JP5098928B2 - INPUT DEVICE AND ELECTRONIC DEVICE USING THE SAME - Google Patents

Description

  The present invention relates to an input device used for electronic devices such as a mobile phone, a PC, a PDA, a television, and a video.

  Conventionally, as an input device, for example, an operation member that is slidably held in multiple directions, a plurality of conductive movable contact portions disposed on an outer peripheral portion of the operation member, and a resistor are provided. A plurality of insulating substrates disposed in the range of the operation member, each of the plurality of movable contact portions is disposed to face the plurality of resistors, and the movable contact portion according to the sliding movement of the operation member There is a multi-directional input device in which the movable contact portion changes a contact area with respect to the resistor.

In the multidirectional input device, as shown in FIG. 1 of Patent Document 1, the collar portion 11b of the operating body 11 protruding from the hole 10d of the driving body 10 is prevented from being detached in the hole 10c of the driving body 10. ing.
JP 2002-62985 A

  However, in the above-described multidirectional input device, it is necessary to incorporate the collar portion 11b of the operating body 11 into the hole 10c of the driving body 10 and slide the operating body 11 for operation. For this reason, there are always vertical and horizontal gaps between the flange 11b and the hole 10c. As a result, the input device is not limited in thickness and size, but the operating body 11 is inclined and rattled, and abnormal noise due to external vibrations and the like is likely to occur.

  On the other hand, if the above-described vertical gap is too small, for example, the operation body 11 may be pressed against the drive body 10 due to deformation that occurs when an external force is applied to the housing 12, and may malfunction. Further, in order to reduce the tilt and backlash of the operating body 11, the opposing sliding area is increased by increasing the height dimension of the hole 10d of the driving body 10 and the thickness dimension of the flange portion 11b of the operating body 11. There is a problem that it cannot be thinned, and is easily worn by the sliding operation of the operating body 11 in the vertical direction, resulting in a decrease in durability.

  In view of the above problems, the present invention can prevent the operation member from tilting and rattling and also preventing the generation of abnormal noise by restricting the position of the operation member using the magnetic force of the magnet required for the input operation. It is an object to provide a thin and small input device and an electronic device using the same.

  In order to solve the above problems, an input device according to the present invention is disposed around an operation member supported so as to be slidable in multiple directions in an operation hole provided in a housing, and the operation member An input device comprising at least two magnetic sensors for detecting a change in magnetism due to displacement of a member, wherein the operation member is made of a holder in which an annular magnet is incorporated in a fitting hole, and a magnetic material on a lower surface. A central push button integrated with a disc plate, and the central push button is fitted into the annular magnet so that the disc magnet is detachably attracted to the annular magnet and the central push button is The button is restricted in position.

According to the present invention, the disc plate of the central push button is attracted to the annular magnet of the holder, and the position of the central push button is regulated. For this reason, the center push button does not tilt or rattle, and the generation of abnormal noise due to external vibration or the like can be prevented.
In addition, since the gap between the holder and the central push button, particularly the vertical gap, can be minimized, a thin and small input device can be obtained.

As an embodiment according to the present invention, the central push button and the disc plate may be integrally formed of the same magnetic material.
According to this embodiment, the number of parts and the number of assembly steps are reduced, and the productivity is improved.

  As another input device according to the present invention, an operation member supported so as to be slidable in multiple directions within an operation hole provided in the housing, and disposed around the operation member, and by displacement of the operation member An input device comprising at least two magnetic sensors for detecting a change in magnetism, wherein the operation member is a center in which an annular magnet is incorporated in a fitting hole, and a disc plate is integrated on a lower surface. The center push button and the disc plate are integrally formed of the same magnet material, have the same polarity as the annular magnet, and the center push button is fitted in the annular magnet. By combining, it is good also as a structure which controls the position of the said operation member with a magnetic repulsive force.

  According to the present invention, the position of the central push button is restricted by the disk plate repelling the annular magnet. For this reason, the center push button is not tilted or rattled, and abnormal noise due to external vibrations can be prevented.

  Another input device according to the present invention includes an operation member supported so as to be slidable in multiple directions within an operation hole of a cover plate constituting the housing, and the operation member disposed around the operation member. An input device comprising at least two magnetic sensors for detecting the displacement of the magnet by a change in magnetism, wherein the operating member is formed by integrating a separate annular magnet on the outer peripheral surface of the central push button. The center push button is operably exposed from the operation hole of the cover plate made of a material, and the annular magnet is detachably attracted to the inside of the cover plate.

According to the present invention, the annular magnet is attracted to the inside of the cover plate, and the position of the central push button is regulated. For this reason, the center push button does not tilt or rattle, and the generation of abnormal noise due to external vibration or the like can be prevented.
In addition, no holder is required, the number of parts and assembly man-hours are reduced, the productivity is high, and the gap between the cover plate and the central push button, especially the vertical gap, can be minimized, so it is thin. A small input device is obtained.

As an embodiment according to the present invention, the central push button of the operation member may be integrally formed with the same magnet material as the annular magnet.
According to this embodiment, the number of parts and assembly man-hours are reduced, and productivity is improved.

As another embodiment according to the present invention, a central push button switch is arranged on a portion of the printed circuit board assembled in the housing so as to be located below the operation member, and located immediately below the central push button. It may be left.
According to this embodiment, a composite operation is possible with the central push button, and a user-friendly input device can be obtained.

  The electronic apparatus according to the present invention has a configuration in which the operation member of the input device is assembled so as to be operable from the outside.

According to the present invention, it is possible to obtain an electronic device in which no tilt or rattling occurs in the central push button and no abnormal noise due to external vibration or the like occurs.
Further, by incorporating a thin and small input device, there is an effect that an even thinner and smaller electronic device can be obtained.

An embodiment according to the present invention will be described with reference to the accompanying drawings of FIGS.
As shown in FIGS. 1 to 7, the first embodiment includes a base plate 10, a flexible printed circuit board 20, a base 30, a position regulating spring 40, an operation member 50, and a cover plate 60. is there.

  As shown in FIGS. 3 and 4, the base plate 10 is made of a flat, substantially rectangular thin metal plate, and has caulking holes 11 at four corners, and jig holes 12 on diagonal lines. is there.

  The flexible printed circuit board 20 is obtained by extending lead portions 22 from a substantially circular printed circuit board main body portion 21 that can be placed on the base plate 10. The printed circuit board body 21 is integrally bonded with a plane X-shaped dome sheet 23, a central push button switch 24 is formed at the center thereof, and a jig hole 25 is provided. . A hall element 26 is mounted around the dome sheet 23. On the other hand, a control IC 27 is mounted on the lead portion 22 and a connection portion 28 is formed at the free end thereof.

  As shown in FIG. 5, the base 30 has a substantially H-shaped cross section and a planar rectangular shape that can cover the base plate 10. The base 30 is provided with caulking protrusions 31 at the four corners of the front and back surfaces, while engaging a return spring (described later) at the corners of the recesses 32a and 32b formed on the front and back surfaces. A through groove 33 is formed. Further, a fitting hole 34 for fitting an operation member 50 to be described later is provided in the central part of the recesses 32a and 32b, and the hall element 26 is formed on the outer peripheral edge of the fitting hole 34. A notch 35 for fitting is formed.

  As shown in FIG. 6, the return spring 40 has a shape obtained by bending an elastic belt-like material into a substantially plane J shape, and engages an engaging protrusion 41 protruding at one end with the through groove 33 of the base 30. Is positioned.

  The operation member 50 includes a holder 51 assembled with an annular magnet 55 and a central push button 56 assembled with a disc plate 58.

  The holder 51 has a disk shape having an outer diameter that can be disposed between the return springs 40 positioned in the base 30, and a flange 53 is formed on the upper edge of the fitting hole 52 provided in the center thereof. On the other hand, an annular rib 54 is protruded from the lower surface edge portion. An annular magnet 55 is fitted and integrated with the fitting hole 52. In addition, the said annular magnet arrange | positions the north-pole and the south pole in any one of inside / outside, up-down, or front-back alternating.

  The central push button 56 has a cylindrical shape having an outer diameter that can be fitted into the annular magnet, and has an operation projection 57 on the bottom surface thereof. A concentric disk plate 58 made of a magnetic material is fitted and integrated with the operation projection 57. For this reason, when the central push button 56 is incorporated in the annular magnet 55, the disc plate 58 is detachably attracted and integrated with the annular magnet 55, and the position of the central push button 56 is regulated.

  The cover plate 60 is made of a flat, substantially rectangular thin metal plate capable of covering the base 30, and has an operation hole 61 having a diameter capable of preventing the operation member 50 from being removed at the center, and caulking holes 62 at the four corners. Is provided.

Next, a method for assembling the input device including the above-described components will be described.
First, a pair of positioning pins, which are jigs (not shown), are inserted into the jig holes 12 of the base plate 10 for positioning. Then, the jig hole 25 of the flexible printed board 20 on which the Hall element 26 and the like are mounted and the adhesive is applied to the back surface is inserted into the positioning pin, and is bonded and integrated to the base plate 10.

  Then, the caulking protrusions 31 of the base 30 are fitted into the caulking holes 11 of the base plate 10 and fixed by caulking. Next, the engagement protrusion 41 of the return spring 40 is fitted and positioned in the through groove 33 of the base 30. Further, the annular magnet 55 is fitted and integrated with the fitting hole 52 of the holder 51, while the disk plate 58 is fitted and integrated with the operation protrusion 57 of the central push button 56. Then, by fitting and assembling the center push button 56 in the annular magnet 55, the disc plate 58 is attracted and integrated with the annular magnet 55.

  Next, the operating member 50 is positioned between the return springs 40 positioned so as to face each other in the base 30, and the annular rib 54 is fitted into the fitting hole 34 of the base 30 and assembled. Finally, the caulking hole 62 of the cover plate 60 is fitted into the caulking protrusion 31 of the base 30 and fixed by caulking.

Next, an operation method when the above-described input device is assembled to a mobile phone will be described.
First, when the operating member 50 is slid or rotated, the annular magnet 55 integrated therewith is also slid or rotated. For this reason, the Hall element 26 detects a change in magnetic force, and based on this, the movement amount, rotation direction, and rotation amount of the operation member 50 are detected.

Then, the scroll bar displayed on the monitor screen or the monitor screen display is moved up and down or left and right through a control circuit (not shown). Next, when the scroll bar reaches a desired position, by pressing the center push button 56, the reversing spring in the center push button switch 24 is reversed, and the corresponding center conductive portion is turned on to output a selection command. .
Next, when the operation force is released from the center push button 56, the reversing spring in the center push button switch 24 is restored, and the operation member 50 is automatically returned to the original position by the spring force of the return spring 40.

  In the operation member 50 according to the present embodiment, the disc plate 58 integrated with the central push button 56 is detachably attracted and integrated with the annular magnet 55 integrated with the holder 51. Therefore, not only can the input device be made thinner and smaller, but the central push button 56 is not tilted or rattled, and no abnormal noise due to external vibration or the like is generated. Further, since the above-mentioned problems do not occur, there is no need to manufacture and assemble the component parts with high dimensional accuracy, and there is an advantage that productivity is improved and yield is improved.

In the second embodiment, as shown in FIG. 8, the central push button 56 and the disc plate portion 58a are integrally formed of a magnetic material.
According to the present embodiment, there are advantages that the number of parts and the number of assembly steps are reduced, and the productivity is improved.

  In the first and second embodiments described above, by setting the polarity of the disc plate portion 58a to be the same as that of the annular magnet 55, the repulsive force is used to restrict the position of the central push button 56, and the tilt, You may prevent rattling.

As shown in FIG. 9, the third embodiment is a case where the annular magnet 55 is integrally assembled to the central push button 56, while the cover plate 60 is formed of a magnetic material and the annular magnet 55 is attracted.
According to this embodiment, there is an advantage that a holder is not required, the number of parts and the number of assembly steps are reduced, productivity is improved, and the input device can be further reduced in thickness and size.

In the fourth embodiment, as shown in FIG. 10, a central push button 56 made of a magnet and an annular portion 55a are integrally formed.
According to the present embodiment, there are advantages that the number of parts and the number of assembly steps are reduced, the productivity is improved, and the input device can be further reduced in thickness and size.

  In the third and fourth embodiments described above, the cover plate 60 and the annular magnet portion 55a may have the same polarity, and the position of the central push button 56 may be regulated using the repulsive force.

  In the present invention, the case where the present invention is applied to a mobile phone has been described.

1A, 1B and 1C are a plan view, a front view and a bottom view showing a first embodiment of an input device according to the present invention. 2A and 2B are a partially enlarged plan view and a sectional view of the input device shown in FIG. It is the disassembled perspective view seen from the upper direction of the input device shown in FIG. It is the disassembled perspective view seen from the downward direction of the input device shown in FIG. 5A, 5B and 5C are a perspective view, a plan view and a front view of the base shown in FIG. 6A, 6B and 6C are a plan view, a front view and a perspective view of the return spring shown in FIG. 7A, 7B and 7C are a partial plan view, a sectional view and a partially enlarged sectional view showing the input device shown in FIG. 8A, 8B, and 8C are a partial plan view, a sectional view, and a partially enlarged sectional view showing a second embodiment of the input device. 9A, 9B and 9C are a partial plan view, a sectional view and a partially enlarged sectional view showing a third embodiment of the input device. 10A, 10B, and 10C are a partial plan view, a sectional view, and a partially enlarged sectional view showing a fourth embodiment of the input device.

Explanation of symbols

10: Base plate 20: Flexible printed circuit board 24: Center push button switch 26: Hall element 30: Base 33: Through groove 34: Fitting hole 40: Return spring 50: Operating member 51: Holder 52: Fitting hole 53: Hook 55: Ring magnet 56: Center push button 57: Disc plate 60: Cover plate

Claims (7)

An operation member supported so as to be slidable in multiple directions within an operation hole provided in the housing, and at least two magnetic sensors disposed around the operation member and detecting a change in magnetism due to displacement of the operation member An input device comprising:
The operation member includes a holder in which an annular magnet is incorporated in a fitting hole, and a central push button in which a disk plate made of a magnetic material is integrated on a lower surface, and the central push button is disposed in the annular magnet. An input device characterized in that, by fitting, the disc plate is separably attracted to the annular magnet to restrict the position of the central push button.   The input device according to claim 1, wherein the central push button and the disc plate are integrally formed of the same magnetic material. An operation member supported so as to be slidable in multiple directions within an operation hole provided in the housing, and at least two magnetic sensors disposed around the operation member and detecting a change in magnetism due to displacement of the operation member An input device comprising:
The operation member includes a holder incorporating an annular magnet in a fitting hole and a central push button in which a disc plate is integrated on a lower surface. The central push button and the disc plate are made of the same magnet material. The operation member is integrally molded and has the same polarity as the annular magnet, and the position of the operation member is regulated by a magnetic repulsive force by fitting the center push button in the annular magnet. Input device. An operation member supported so as to be slidable in multiple directions within an operation hole of the cover plate constituting the housing, and at least 2 which is disposed around the operation member and detects displacement of the operation member by a magnetic change An input device comprising two magnetic sensors,
The operation member is formed by integrating a separate annular magnet on the outer peripheral surface of the center push button, and the center push button is operably exposed from the operation hole of the cover plate made of a magnetic material. An input device, wherein the annular magnet is detachably attracted to the inside of a cover plate.   The input device according to claim 4, wherein the central push button of the operation member is integrally formed of the same magnet material as the annular magnet.   6. The central push button switch is disposed in a portion of the printed circuit board assembled in the housing so as to be positioned below the operation member and located immediately below the central push button. The input device according to claim 1.   An electronic apparatus comprising the operation member of the input device according to any one of claims 1 to 6 which is assembled so as to be operable from the outside.

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